// $ANTLR 3.1.2 BuildOptions\\ProfileGrammar.g3 2009-09-30 13:18:17
// The variable 'variable' is assigned but its value is never used.
#pragma warning disable 219
// Unreachable code detected.
#pragma warning disable 162
using System.Collections.Generic;
using Antlr.Runtime;
using Stack = System.Collections.Generic.Stack<object>;
using List = System.Collections.IList;
using ArrayList = System.Collections.Generic.List<object>;
using Antlr.Runtime.Debug;
using IOException = System.IO.IOException;
using Antlr.Runtime.Tree;
using RewriteRuleITokenStream = Antlr.Runtime.Tree.RewriteRuleTokenStream;
[System.CodeDom.Compiler.GeneratedCode("ANTLR", "3.1.2")]
[System.CLSCompliant(false)]
public partial class ProfileGrammarParser : DebugParser
{
internal static readonly string[] tokenNames = new string[] {
"<invalid>", "<EOR>", "<DOWN>", "<UP>", "CALL", "FUNC", "ID", "INT", "NEWLINE", "WS", "'-'", "'%'", "'('", "')'", "'*'", "'/'", "'+'", "'='"
};
public const int EOF=-1;
public const int T__10=10;
public const int T__11=11;
public const int T__12=12;
public const int T__13=13;
public const int T__14=14;
public const int T__15=15;
public const int T__16=16;
public const int T__17=17;
public const int CALL=4;
public const int FUNC=5;
public const int ID=6;
public const int INT=7;
public const int NEWLINE=8;
public const int WS=9;
// delegates
// delegators
public static readonly string[] ruleNames =
new string[]
{
"invalidRule", "atom", "expr", "formalPar", "func", "multExpr", "prog",
"stat"
};
int ruleLevel = 0;
public virtual int RuleLevel { get { return ruleLevel; } }
public virtual void IncRuleLevel() { ruleLevel++; }
public virtual void DecRuleLevel() { ruleLevel--; }
public ProfileGrammarParser( ITokenStream input )
: this( input, new Profiler(null), new RecognizerSharedState() )
{
}
public ProfileGrammarParser( ITokenStream input, IDebugEventListener dbg, RecognizerSharedState state )
: base( input, dbg, state )
{
Profiler p = (Profiler)dbg;
p.setParser(this);
InitializeTreeAdaptor();
if ( TreeAdaptor == null )
TreeAdaptor = new CommonTreeAdaptor();
ITreeAdaptor adap = new CommonTreeAdaptor();
TreeAdaptor = adap;
proxy.TreeAdaptor = adap;
}
public ProfileGrammarParser( ITokenStream input, IDebugEventListener dbg )
: base( input, dbg )
{
Profiler p = (Profiler)dbg;
p.setParser(this);InitializeTreeAdaptor();
if ( TreeAdaptor == null )
TreeAdaptor = new CommonTreeAdaptor();
ITreeAdaptor adap = new CommonTreeAdaptor();
TreeAdaptor = adap;
}
public virtual bool AlreadyParsedRule( IIntStream input, int ruleIndex )
{
((Profiler)dbg).ExamineRuleMemoization(input, ruleIndex, ProfileGrammarParser.ruleNames[ruleIndex]);
return super.AlreadyParsedRule(input, ruleIndex);
}
public virtual void Memoize( IIntStream input, int ruleIndex, int ruleStartIndex )
{
((Profiler)dbg).Memoize(input, ruleIndex, ruleStartIndex, ProfileGrammarParser.ruleNames[ruleIndex]);
super.Memoize(input, ruleIndex, ruleStartIndex);
}
protected virtual bool EvalPredicate( bool result, string predicate )
{
dbg.SemanticPredicate( result, predicate );
return result;
}
// Implement this function in your helper file to use a custom tree adaptor
partial void InitializeTreeAdaptor();
protected DebugTreeAdaptor adaptor;
public ITreeAdaptor TreeAdaptor
{
get
{
return adaptor;
}
set
{
this.adaptor = new DebugTreeAdaptor(dbg,adaptor);
}
}
public override string[] TokenNames { get { return ProfileGrammarParser.tokenNames; } }
public override string GrammarFileName { get { return "BuildOptions\\ProfileGrammar.g3"; } }
#region Rules
public class prog_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "prog"
// BuildOptions\\ProfileGrammar.g3:50:0: prog : ( stat )* ;
private ProfileGrammarParser.prog_return prog( )
{
ProfileGrammarParser.prog_return retval = new ProfileGrammarParser.prog_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
ProfileGrammarParser.stat_return stat1 = default(ProfileGrammarParser.stat_return);
try
{
dbg.EnterRule( GrammarFileName, "prog" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 50, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:50:7: ( ( stat )* )
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:50:7: ( stat )*
{
root_0 = (CommonTree)adaptor.Nil();
dbg.Location( 50, 6 );
// BuildOptions\\ProfileGrammar.g3:50:7: ( stat )*
try
{
dbg.EnterSubRule( 1 );
for ( ; ; )
{
int alt1=2;
try
{
dbg.EnterDecision( 1 );
int LA1_0 = input.LA(1);
if ( ((LA1_0>=ID && LA1_0<=NEWLINE)||LA1_0==12) )
{
alt1=1;
}
}
finally
{
dbg.ExitDecision( 1 );
}
switch ( alt1 )
{
case 1:
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:50:9: stat
{
dbg.Location( 50, 8 );
PushFollow(Follow._stat_in_prog53);
stat1=stat();
state._fsp--;
adaptor.AddChild(root_0, stat1.Tree);
}
break;
default:
goto loop1;
}
}
loop1:
;
}
finally
{
dbg.ExitSubRule( 1 );
}
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
}
dbg.Location(51, 4);
}
finally
{
dbg.ExitRule( GrammarFileName, "prog" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "prog"
public class stat_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "stat"
// BuildOptions\\ProfileGrammar.g3:53:0: stat : ( expr NEWLINE -> expr | ID '=' expr NEWLINE -> ^( '=' ID expr ) | func NEWLINE -> func | NEWLINE ->);
private ProfileGrammarParser.stat_return stat( )
{
ProfileGrammarParser.stat_return retval = new ProfileGrammarParser.stat_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
IToken NEWLINE3=null;
IToken ID4=null;
IToken char_literal5=null;
IToken NEWLINE7=null;
IToken NEWLINE9=null;
IToken NEWLINE10=null;
ProfileGrammarParser.expr_return expr2 = default(ProfileGrammarParser.expr_return);
ProfileGrammarParser.expr_return expr6 = default(ProfileGrammarParser.expr_return);
ProfileGrammarParser.func_return func8 = default(ProfileGrammarParser.func_return);
CommonTree NEWLINE3_tree=null;
CommonTree ID4_tree=null;
CommonTree char_literal5_tree=null;
CommonTree NEWLINE7_tree=null;
CommonTree NEWLINE9_tree=null;
CommonTree NEWLINE10_tree=null;
RewriteRuleITokenStream stream_NEWLINE=new RewriteRuleITokenStream(adaptor,"token NEWLINE");
RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
RewriteRuleITokenStream stream_17=new RewriteRuleITokenStream(adaptor,"token 17");
RewriteRuleSubtreeStream stream_expr=new RewriteRuleSubtreeStream(adaptor,"rule expr");
RewriteRuleSubtreeStream stream_func=new RewriteRuleSubtreeStream(adaptor,"rule func");
try
{
dbg.EnterRule( GrammarFileName, "stat" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 53, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:53:9: ( expr NEWLINE -> expr | ID '=' expr NEWLINE -> ^( '=' ID expr ) | func NEWLINE -> func | NEWLINE ->)
int alt2=4;
try
{
dbg.EnterDecision( 2 );
try
{
isCyclicDecision = true;
alt2 = dfa2.Predict(input);
}
catch ( NoViableAltException nvae )
{
dbg.RecognitionException( nvae );
throw nvae;
}
}
finally
{
dbg.ExitDecision( 2 );
}
switch ( alt2 )
{
case 1:
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:53:9: expr NEWLINE
{
dbg.Location( 53, 8 );
PushFollow(Follow._expr_in_stat70);
expr2=expr();
state._fsp--;
stream_expr.Add(expr2.Tree);
dbg.Location( 53, 13 );
NEWLINE3=(IToken)Match(input,NEWLINE,Follow._NEWLINE_in_stat72);
stream_NEWLINE.Add(NEWLINE3);
{
// AST REWRITE
// elements: expr
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 53:41: -> expr
{
dbg.Location( 53, 43 );
adaptor.AddChild(root_0, stream_expr.NextTree());
}
retval.tree = root_0;
}
}
break;
case 2:
dbg.EnterAlt( 2 );
// BuildOptions\\ProfileGrammar.g3:54:9: ID '=' expr NEWLINE
{
dbg.Location( 54, 8 );
ID4=(IToken)Match(input,ID,Follow._ID_in_stat105);
stream_ID.Add(ID4);
dbg.Location( 54, 11 );
char_literal5=(IToken)Match(input,17,Follow._17_in_stat107);
stream_17.Add(char_literal5);
dbg.Location( 54, 15 );
PushFollow(Follow._expr_in_stat109);
expr6=expr();
state._fsp--;
stream_expr.Add(expr6.Tree);
dbg.Location( 54, 20 );
NEWLINE7=(IToken)Match(input,NEWLINE,Follow._NEWLINE_in_stat111);
stream_NEWLINE.Add(NEWLINE7);
{
// AST REWRITE
// elements: 17, ID, expr
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 54:41: -> ^( '=' ID expr )
{
dbg.Location( 54, 43 );
// BuildOptions\\ProfileGrammar.g3:54:44: ^( '=' ID expr )
{
CommonTree root_1 = (CommonTree)adaptor.Nil();
dbg.Location( 54, 45 );
root_1 = (CommonTree)adaptor.BecomeRoot(stream_17.NextNode(), root_1);
dbg.Location( 54, 49 );
adaptor.AddChild(root_1, stream_ID.NextNode());
dbg.Location( 54, 52 );
adaptor.AddChild(root_1, stream_expr.NextTree());
adaptor.AddChild(root_0, root_1);
}
}
retval.tree = root_0;
}
}
break;
case 3:
dbg.EnterAlt( 3 );
// BuildOptions\\ProfileGrammar.g3:55:9: func NEWLINE
{
dbg.Location( 55, 8 );
PushFollow(Follow._func_in_stat143);
func8=func();
state._fsp--;
stream_func.Add(func8.Tree);
dbg.Location( 55, 13 );
NEWLINE9=(IToken)Match(input,NEWLINE,Follow._NEWLINE_in_stat145);
stream_NEWLINE.Add(NEWLINE9);
{
// AST REWRITE
// elements: func
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 55:41: -> func
{
dbg.Location( 55, 43 );
adaptor.AddChild(root_0, stream_func.NextTree());
}
retval.tree = root_0;
}
}
break;
case 4:
dbg.EnterAlt( 4 );
// BuildOptions\\ProfileGrammar.g3:56:9: NEWLINE
{
dbg.Location( 56, 8 );
NEWLINE10=(IToken)Match(input,NEWLINE,Follow._NEWLINE_in_stat178);
stream_NEWLINE.Add(NEWLINE10);
{
// AST REWRITE
// elements:
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 56:41: ->
{
dbg.Location( 57, 4 );
root_0 = null;
}
retval.tree = root_0;
}
}
break;
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
}
dbg.Location(57, 4);
}
finally
{
dbg.ExitRule( GrammarFileName, "stat" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "stat"
public class func_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "func"
// BuildOptions\\ProfileGrammar.g3:59:0: func : ID '(' formalPar ')' '=' expr -> ^( FUNC ID formalPar expr ) ;
private ProfileGrammarParser.func_return func( )
{
ProfileGrammarParser.func_return retval = new ProfileGrammarParser.func_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
IToken ID11=null;
IToken char_literal12=null;
IToken char_literal14=null;
IToken char_literal15=null;
ProfileGrammarParser.formalPar_return formalPar13 = default(ProfileGrammarParser.formalPar_return);
ProfileGrammarParser.expr_return expr16 = default(ProfileGrammarParser.expr_return);
CommonTree ID11_tree=null;
CommonTree char_literal12_tree=null;
CommonTree char_literal14_tree=null;
CommonTree char_literal15_tree=null;
RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
RewriteRuleITokenStream stream_12=new RewriteRuleITokenStream(adaptor,"token 12");
RewriteRuleITokenStream stream_13=new RewriteRuleITokenStream(adaptor,"token 13");
RewriteRuleITokenStream stream_17=new RewriteRuleITokenStream(adaptor,"token 17");
RewriteRuleSubtreeStream stream_formalPar=new RewriteRuleSubtreeStream(adaptor,"rule formalPar");
RewriteRuleSubtreeStream stream_expr=new RewriteRuleSubtreeStream(adaptor,"rule expr");
try
{
dbg.EnterRule( GrammarFileName, "func" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 59, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:59:9: ( ID '(' formalPar ')' '=' expr -> ^( FUNC ID formalPar expr ) )
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:59:9: ID '(' formalPar ')' '=' expr
{
dbg.Location( 59, 8 );
ID11=(IToken)Match(input,ID,Follow._ID_in_func219);
stream_ID.Add(ID11);
dbg.Location( 59, 12 );
char_literal12=(IToken)Match(input,12,Follow._12_in_func222);
stream_12.Add(char_literal12);
dbg.Location( 59, 16 );
PushFollow(Follow._formalPar_in_func224);
formalPar13=formalPar();
state._fsp--;
stream_formalPar.Add(formalPar13.Tree);
dbg.Location( 59, 26 );
char_literal14=(IToken)Match(input,13,Follow._13_in_func226);
stream_13.Add(char_literal14);
dbg.Location( 59, 30 );
char_literal15=(IToken)Match(input,17,Follow._17_in_func228);
stream_17.Add(char_literal15);
dbg.Location( 59, 34 );
PushFollow(Follow._expr_in_func230);
expr16=expr();
state._fsp--;
stream_expr.Add(expr16.Tree);
{
// AST REWRITE
// elements: ID, formalPar, expr
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 59:41: -> ^( FUNC ID formalPar expr )
{
dbg.Location( 59, 43 );
// BuildOptions\\ProfileGrammar.g3:59:44: ^( FUNC ID formalPar expr )
{
CommonTree root_1 = (CommonTree)adaptor.Nil();
dbg.Location( 59, 45 );
root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(FUNC, "FUNC"), root_1);
dbg.Location( 59, 50 );
adaptor.AddChild(root_1, stream_ID.NextNode());
dbg.Location( 59, 53 );
adaptor.AddChild(root_1, stream_formalPar.NextTree());
dbg.Location( 59, 63 );
adaptor.AddChild(root_1, stream_expr.NextTree());
adaptor.AddChild(root_0, root_1);
}
}
retval.tree = root_0;
}
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
functionDefinitions.Add(((CommonTree)retval.Tree));
}
dbg.Location(60, 4);
}
finally
{
dbg.ExitRule( GrammarFileName, "func" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "func"
public class formalPar_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "formalPar"
// BuildOptions\\ProfileGrammar.g3:65:0: formalPar : ( ID | INT );
private ProfileGrammarParser.formalPar_return formalPar( )
{
ProfileGrammarParser.formalPar_return retval = new ProfileGrammarParser.formalPar_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
IToken set17=null;
CommonTree set17_tree=null;
try
{
dbg.EnterRule( GrammarFileName, "formalPar" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 65, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:66:9: ( ID | INT )
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:
{
root_0 = (CommonTree)adaptor.Nil();
dbg.Location( 66, 8 );
set17=(IToken)input.LT(1);
if ( (input.LA(1)>=ID && input.LA(1)<=INT) )
{
input.Consume();
adaptor.AddChild(root_0, (CommonTree)adaptor.Create(set17));
state.errorRecovery=false;
}
else
{
MismatchedSetException mse = new MismatchedSetException(null,input);
dbg.RecognitionException( mse );
throw mse;
}
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
}
dbg.Location(68, 1);
}
finally
{
dbg.ExitRule( GrammarFileName, "formalPar" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "formalPar"
public class expr_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "expr"
// BuildOptions\\ProfileGrammar.g3:73:0: expr : multExpr ( ( '+' | '-' ) multExpr )* ;
private ProfileGrammarParser.expr_return expr( )
{
ProfileGrammarParser.expr_return retval = new ProfileGrammarParser.expr_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
IToken char_literal19=null;
IToken char_literal20=null;
ProfileGrammarParser.multExpr_return multExpr18 = default(ProfileGrammarParser.multExpr_return);
ProfileGrammarParser.multExpr_return multExpr21 = default(ProfileGrammarParser.multExpr_return);
CommonTree char_literal19_tree=null;
CommonTree char_literal20_tree=null;
try
{
dbg.EnterRule( GrammarFileName, "expr" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 73, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:73:9: ( multExpr ( ( '+' | '-' ) multExpr )* )
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:73:9: multExpr ( ( '+' | '-' ) multExpr )*
{
root_0 = (CommonTree)adaptor.Nil();
dbg.Location( 73, 8 );
PushFollow(Follow._multExpr_in_expr288);
multExpr18=multExpr();
state._fsp--;
adaptor.AddChild(root_0, multExpr18.Tree);
dbg.Location( 73, 17 );
// BuildOptions\\ProfileGrammar.g3:73:18: ( ( '+' | '-' ) multExpr )*
try
{
dbg.EnterSubRule( 4 );
for ( ; ; )
{
int alt4=2;
try
{
dbg.EnterDecision( 4 );
int LA4_0 = input.LA(1);
if ( (LA4_0==10||LA4_0==16) )
{
alt4=1;
}
}
finally
{
dbg.ExitDecision( 4 );
}
switch ( alt4 )
{
case 1:
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:73:19: ( '+' | '-' ) multExpr
{
dbg.Location( 73, 18 );
// BuildOptions\\ProfileGrammar.g3:73:19: ( '+' | '-' )
int alt3=2;
try
{
dbg.EnterSubRule( 3 );
try
{
dbg.EnterDecision( 3 );
int LA3_0 = input.LA(1);
if ( (LA3_0==16) )
{
alt3=1;
}
else if ( (LA3_0==10) )
{
alt3=2;
}
else
{
NoViableAltException nvae = new NoViableAltException("", 3, 0, input);
dbg.RecognitionException( nvae );
throw nvae;
}
}
finally
{
dbg.ExitDecision( 3 );
}
switch ( alt3 )
{
case 1:
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:73:20: '+'
{
dbg.Location( 73, 22 );
char_literal19=(IToken)Match(input,16,Follow._16_in_expr292);
char_literal19_tree = (CommonTree)adaptor.Create(char_literal19);
root_0 = (CommonTree)adaptor.BecomeRoot(char_literal19_tree, root_0);
}
break;
case 2:
dbg.EnterAlt( 2 );
// BuildOptions\\ProfileGrammar.g3:73:25: '-'
{
dbg.Location( 73, 27 );
char_literal20=(IToken)Match(input,10,Follow._10_in_expr295);
char_literal20_tree = (CommonTree)adaptor.Create(char_literal20);
root_0 = (CommonTree)adaptor.BecomeRoot(char_literal20_tree, root_0);
}
break;
}
}
finally
{
dbg.ExitSubRule( 3 );
}
dbg.Location( 73, 30 );
PushFollow(Follow._multExpr_in_expr299);
multExpr21=multExpr();
state._fsp--;
adaptor.AddChild(root_0, multExpr21.Tree);
}
break;
default:
goto loop4;
}
}
loop4:
;
}
finally
{
dbg.ExitSubRule( 4 );
}
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
}
dbg.Location(74, 4);
}
finally
{
dbg.ExitRule( GrammarFileName, "expr" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "expr"
public class multExpr_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "multExpr"
// BuildOptions\\ProfileGrammar.g3:76:0: multExpr : atom ( ( '*' | '/' | '%' ) atom )* ;
private ProfileGrammarParser.multExpr_return multExpr( )
{
ProfileGrammarParser.multExpr_return retval = new ProfileGrammarParser.multExpr_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
IToken set23=null;
ProfileGrammarParser.atom_return atom22 = default(ProfileGrammarParser.atom_return);
ProfileGrammarParser.atom_return atom24 = default(ProfileGrammarParser.atom_return);
CommonTree set23_tree=null;
try
{
dbg.EnterRule( GrammarFileName, "multExpr" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 76, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:77:9: ( atom ( ( '*' | '/' | '%' ) atom )* )
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:77:9: atom ( ( '*' | '/' | '%' ) atom )*
{
root_0 = (CommonTree)adaptor.Nil();
dbg.Location( 77, 8 );
PushFollow(Follow._atom_in_multExpr320);
atom22=atom();
state._fsp--;
adaptor.AddChild(root_0, atom22.Tree);
dbg.Location( 77, 13 );
// BuildOptions\\ProfileGrammar.g3:77:14: ( ( '*' | '/' | '%' ) atom )*
try
{
dbg.EnterSubRule( 5 );
for ( ; ; )
{
int alt5=2;
try
{
dbg.EnterDecision( 5 );
int LA5_0 = input.LA(1);
if ( (LA5_0==11||(LA5_0>=14 && LA5_0<=15)) )
{
alt5=1;
}
}
finally
{
dbg.ExitDecision( 5 );
}
switch ( alt5 )
{
case 1:
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:77:15: ( '*' | '/' | '%' ) atom
{
dbg.Location( 77, 27 );
set23=(IToken)input.LT(1);
set23=(IToken)input.LT(1);
if ( input.LA(1)==11||(input.LA(1)>=14 && input.LA(1)<=15) )
{
input.Consume();
root_0 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(set23), root_0);
state.errorRecovery=false;
}
else
{
MismatchedSetException mse = new MismatchedSetException(null,input);
dbg.RecognitionException( mse );
throw mse;
}
dbg.Location( 77, 29 );
PushFollow(Follow._atom_in_multExpr332);
atom24=atom();
state._fsp--;
adaptor.AddChild(root_0, atom24.Tree);
}
break;
default:
goto loop5;
}
}
loop5:
;
}
finally
{
dbg.ExitSubRule( 5 );
}
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
}
dbg.Location(78, 4);
}
finally
{
dbg.ExitRule( GrammarFileName, "multExpr" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "multExpr"
public class atom_return : ParserRuleReturnScope
{
internal CommonTree tree;
public override object Tree { get { return tree; } }
}
// $ANTLR start "atom"
// BuildOptions\\ProfileGrammar.g3:80:0: atom : ( INT | ID | '(' expr ')' -> expr | ID '(' expr ')' -> ^( CALL ID expr ) );
private ProfileGrammarParser.atom_return atom( )
{
ProfileGrammarParser.atom_return retval = new ProfileGrammarParser.atom_return();
retval.start = input.LT(1);
CommonTree root_0 = null;
IToken INT25=null;
IToken ID26=null;
IToken char_literal27=null;
IToken char_literal29=null;
IToken ID30=null;
IToken char_literal31=null;
IToken char_literal33=null;
ProfileGrammarParser.expr_return expr28 = default(ProfileGrammarParser.expr_return);
ProfileGrammarParser.expr_return expr32 = default(ProfileGrammarParser.expr_return);
CommonTree INT25_tree=null;
CommonTree ID26_tree=null;
CommonTree char_literal27_tree=null;
CommonTree char_literal29_tree=null;
CommonTree ID30_tree=null;
CommonTree char_literal31_tree=null;
CommonTree char_literal33_tree=null;
RewriteRuleITokenStream stream_12=new RewriteRuleITokenStream(adaptor,"token 12");
RewriteRuleITokenStream stream_13=new RewriteRuleITokenStream(adaptor,"token 13");
RewriteRuleITokenStream stream_ID=new RewriteRuleITokenStream(adaptor,"token ID");
RewriteRuleSubtreeStream stream_expr=new RewriteRuleSubtreeStream(adaptor,"rule expr");
try
{
dbg.EnterRule( GrammarFileName, "atom" );
if ( RuleLevel == 0 )
{
dbg.Commence();
}
IncRuleLevel();
dbg.Location( 80, -1 );
try
{
// BuildOptions\\ProfileGrammar.g3:80:9: ( INT | ID | '(' expr ')' -> expr | ID '(' expr ')' -> ^( CALL ID expr ) )
int alt6=4;
try
{
dbg.EnterDecision( 6 );
switch ( input.LA(1) )
{
case INT:
{
alt6=1;
}
break;
case ID:
{
int LA6_2 = input.LA(2);
if ( (LA6_2==12) )
{
alt6=4;
}
else if ( (LA6_2==NEWLINE||(LA6_2>=10 && LA6_2<=11)||(LA6_2>=13 && LA6_2<=16)) )
{
alt6=2;
}
else
{
NoViableAltException nvae = new NoViableAltException("", 6, 2, input);
dbg.RecognitionException( nvae );
throw nvae;
}
}
break;
case 12:
{
alt6=3;
}
break;
default:
{
NoViableAltException nvae = new NoViableAltException("", 6, 0, input);
dbg.RecognitionException( nvae );
throw nvae;
}
}
}
finally
{
dbg.ExitDecision( 6 );
}
switch ( alt6 )
{
case 1:
dbg.EnterAlt( 1 );
// BuildOptions\\ProfileGrammar.g3:80:9: INT
{
root_0 = (CommonTree)adaptor.Nil();
dbg.Location( 80, 8 );
INT25=(IToken)Match(input,INT,Follow._INT_in_atom348);
INT25_tree = (CommonTree)adaptor.Create(INT25);
adaptor.AddChild(root_0, INT25_tree);
}
break;
case 2:
dbg.EnterAlt( 2 );
// BuildOptions\\ProfileGrammar.g3:81:9: ID
{
root_0 = (CommonTree)adaptor.Nil();
dbg.Location( 81, 8 );
ID26=(IToken)Match(input,ID,Follow._ID_in_atom358);
ID26_tree = (CommonTree)adaptor.Create(ID26);
adaptor.AddChild(root_0, ID26_tree);
}
break;
case 3:
dbg.EnterAlt( 3 );
// BuildOptions\\ProfileGrammar.g3:82:9: '(' expr ')'
{
dbg.Location( 82, 8 );
char_literal27=(IToken)Match(input,12,Follow._12_in_atom368);
stream_12.Add(char_literal27);
dbg.Location( 82, 12 );
PushFollow(Follow._expr_in_atom370);
expr28=expr();
state._fsp--;
stream_expr.Add(expr28.Tree);
dbg.Location( 82, 17 );
char_literal29=(IToken)Match(input,13,Follow._13_in_atom372);
stream_13.Add(char_literal29);
{
// AST REWRITE
// elements: expr
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 82:25: -> expr
{
dbg.Location( 82, 27 );
adaptor.AddChild(root_0, stream_expr.NextTree());
}
retval.tree = root_0;
}
}
break;
case 4:
dbg.EnterAlt( 4 );
// BuildOptions\\ProfileGrammar.g3:83:9: ID '(' expr ')'
{
dbg.Location( 83, 8 );
ID30=(IToken)Match(input,ID,Follow._ID_in_atom389);
stream_ID.Add(ID30);
dbg.Location( 83, 11 );
char_literal31=(IToken)Match(input,12,Follow._12_in_atom391);
stream_12.Add(char_literal31);
dbg.Location( 83, 15 );
PushFollow(Follow._expr_in_atom393);
expr32=expr();
state._fsp--;
stream_expr.Add(expr32.Tree);
dbg.Location( 83, 20 );
char_literal33=(IToken)Match(input,13,Follow._13_in_atom395);
stream_13.Add(char_literal33);
{
// AST REWRITE
// elements: ID, expr
// token labels:
// rule labels: retval
// token list labels:
// rule list labels:
// wildcard labels:
retval.tree = root_0;
RewriteRuleSubtreeStream stream_retval=new RewriteRuleSubtreeStream(adaptor,"rule retval",retval!=null?retval.tree:null);
root_0 = (CommonTree)adaptor.Nil();
// 83:25: -> ^( CALL ID expr )
{
dbg.Location( 83, 27 );
// BuildOptions\\ProfileGrammar.g3:83:28: ^( CALL ID expr )
{
CommonTree root_1 = (CommonTree)adaptor.Nil();
dbg.Location( 83, 29 );
root_1 = (CommonTree)adaptor.BecomeRoot((CommonTree)adaptor.Create(CALL, "CALL"), root_1);
dbg.Location( 83, 34 );
adaptor.AddChild(root_1, stream_ID.NextNode());
dbg.Location( 83, 37 );
adaptor.AddChild(root_1, stream_expr.NextTree());
adaptor.AddChild(root_0, root_1);
}
}
retval.tree = root_0;
}
}
break;
}
retval.stop = input.LT(-1);
retval.tree = (CommonTree)adaptor.RulePostProcessing(root_0);
adaptor.SetTokenBoundaries(retval.tree, retval.start, retval.stop);
}
catch ( RecognitionException re )
{
ReportError(re);
Recover(input,re);
retval.tree = (CommonTree)adaptor.ErrorNode(input, retval.start, input.LT(-1), re);
}
finally
{
}
dbg.Location(84, 4);
}
finally
{
dbg.ExitRule( GrammarFileName, "atom" );
DecRuleLevel();
if ( RuleLevel == 0 )
{
dbg.Terminate();
}
}
return retval;
}
// $ANTLR end "atom"
#endregion Rules
#region DFA
DFA2 dfa2;
protected override void InitDFAs()
{
base.InitDFAs();
dfa2 = new DFA2( this );
}
class DFA2 : DFA
{
const string DFA2_eotS =
"\xA\xFFFF";
const string DFA2_eofS =
"\xA\xFFFF";
const string DFA2_minS =
"\x1\x6\x1\xFFFF\x1\x8\x1\xFFFF\x1\x6\x1\xFFFF\x2\xA\x1\x8\x1\xFFFF";
const string DFA2_maxS =
"\x1\xC\x1\xFFFF\x1\x11\x1\xFFFF\x1\xC\x1\xFFFF\x2\x10\x1\x11\x1\xFFFF";
const string DFA2_acceptS =
"\x1\xFFFF\x1\x1\x1\xFFFF\x1\x4\x1\xFFFF\x1\x2\x3\xFFFF\x1\x3";
const string DFA2_specialS =
"\xA\xFFFF}>";
static readonly string[] DFA2_transitionS =
{
"\x1\x2\x1\x1\x1\x3\x3\xFFFF\x1\x1",
"",
"\x1\x1\x1\xFFFF\x2\x1\x1\x4\x1\xFFFF\x3\x1\x1\x5",
"",
"\x1\x7\x1\x6\x4\xFFFF\x1\x1",
"",
"\x2\x1\x1\xFFFF\x1\x8\x3\x1",
"\x3\x1\x1\x8\x3\x1",
"\x1\x1\x1\xFFFF\x2\x1\x2\xFFFF\x3\x1\x1\x9",
""
};
static readonly short[] DFA2_eot = DFA.UnpackEncodedString(DFA2_eotS);
static readonly short[] DFA2_eof = DFA.UnpackEncodedString(DFA2_eofS);
static readonly char[] DFA2_min = DFA.UnpackEncodedStringToUnsignedChars(DFA2_minS);
static readonly char[] DFA2_max = DFA.UnpackEncodedStringToUnsignedChars(DFA2_maxS);
static readonly short[] DFA2_accept = DFA.UnpackEncodedString(DFA2_acceptS);
static readonly short[] DFA2_special = DFA.UnpackEncodedString(DFA2_specialS);
static readonly short[][] DFA2_transition;
static DFA2()
{
int numStates = DFA2_transitionS.Length;
DFA2_transition = new short[numStates][];
for ( int i=0; i < numStates; i++ )
{
DFA2_transition[i] = DFA.UnpackEncodedString(DFA2_transitionS[i]);
}
}
public DFA2( BaseRecognizer recognizer )
{
this.recognizer = recognizer;
this.decisionNumber = 2;
this.eot = DFA2_eot;
this.eof = DFA2_eof;
this.min = DFA2_min;
this.max = DFA2_max;
this.accept = DFA2_accept;
this.special = DFA2_special;
this.transition = DFA2_transition;
}
public override string GetDescription()
{
return "53:0: stat : ( expr NEWLINE -> expr | ID '=' expr NEWLINE -> ^( '=' ID expr ) | func NEWLINE -> func | NEWLINE ->);";
}
public override void Error( NoViableAltException nvae )
{
((DebugParser)recognizer).dbg.RecognitionException( nvae );
}
}
#endregion DFA
#region Follow sets
private static class Follow
{
public static readonly BitSet _stat_in_prog53 = new BitSet(new ulong[]{0x11C2UL});
public static readonly BitSet _expr_in_stat70 = new BitSet(new ulong[]{0x100UL});
public static readonly BitSet _NEWLINE_in_stat72 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _ID_in_stat105 = new BitSet(new ulong[]{0x20000UL});
public static readonly BitSet _17_in_stat107 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _expr_in_stat109 = new BitSet(new ulong[]{0x100UL});
public static readonly BitSet _NEWLINE_in_stat111 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _func_in_stat143 = new BitSet(new ulong[]{0x100UL});
public static readonly BitSet _NEWLINE_in_stat145 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _NEWLINE_in_stat178 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _ID_in_func219 = new BitSet(new ulong[]{0x1000UL});
public static readonly BitSet _12_in_func222 = new BitSet(new ulong[]{0xC0UL});
public static readonly BitSet _formalPar_in_func224 = new BitSet(new ulong[]{0x2000UL});
public static readonly BitSet _13_in_func226 = new BitSet(new ulong[]{0x20000UL});
public static readonly BitSet _17_in_func228 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _expr_in_func230 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _set_in_formalPar267 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _multExpr_in_expr288 = new BitSet(new ulong[]{0x10402UL});
public static readonly BitSet _16_in_expr292 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _10_in_expr295 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _multExpr_in_expr299 = new BitSet(new ulong[]{0x10402UL});
public static readonly BitSet _atom_in_multExpr320 = new BitSet(new ulong[]{0xC802UL});
public static readonly BitSet _set_in_multExpr323 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _atom_in_multExpr332 = new BitSet(new ulong[]{0xC802UL});
public static readonly BitSet _INT_in_atom348 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _ID_in_atom358 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _12_in_atom368 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _expr_in_atom370 = new BitSet(new ulong[]{0x2000UL});
public static readonly BitSet _13_in_atom372 = new BitSet(new ulong[]{0x2UL});
public static readonly BitSet _ID_in_atom389 = new BitSet(new ulong[]{0x1000UL});
public static readonly BitSet _12_in_atom391 = new BitSet(new ulong[]{0x10C0UL});
public static readonly BitSet _expr_in_atom393 = new BitSet(new ulong[]{0x2000UL});
public static readonly BitSet _13_in_atom395 = new BitSet(new ulong[]{0x2UL});
}
#endregion Follow sets
}